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Controlled synthesis of bismuth oxychloride-carbon nanofiber hybrid materials as highly efficient electrodes for rocking-chair capacitive deionization

Release time:2021-03-15 Hits:

Key Words:FLOW-THROUGH; DESALINATION PERFORMANCE; WATER DESALINATION; FARADAIC REACTIONS; CHARGE EFFICIENCY; MEMBRANE; CDI; COMPOSITES; REMOVAL; ENERGY
Abstract:Rocking-chair Capacitive Deionization (RCDI) is one of the most promising cell architectures for highly efficient capacitive deionization (CDI) to address the fresh-water shortage, and developing Cl--removal electrode materials of RCDI toward highly-efficient desalination (with high capacity and rate) is of utmost urgency. Herein we report our design on high-performance Cl--removal electrode material via controllable anchoring of bismuth oxychloride nanostructures (BiOCl; such as nanoplates, nanoflowers, and nanospheres) on electrospun carbon nanofibers (BiOCl-CNF) for RCDI. The BiOCl-CNF based RCDI system displays excellent Cl- storage capacitance as well as freestanding characteristics, which enables it to be a perfect electrode candidate for RCDI. By properly tailoring the composition of the hybrid material, the BiOCl-CNF based RCDI displays outstanding desalination efficacy in terms of desalination capacity (124 mg.g(-1)), energy consumption (66.8 Wh.m(-3)), and desalination rate (0.52 mg.g(-1).s(-1)), which are far more superior than the existing systems from the literatures, exemplifying the critical importance of delicate design in the Cl--removal electrode materials for improving the desalination performance.
Volume:403
Translation or Not:no